SU1643471A1 - Biological sewage treatment plant - Google Patents

Description

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(21) 4677368/26

(22) P.04,89

(46) 04.23.91. Bul W-5

(71) Voronezh Civil Engineering Institute

(72) N.V. Gvozdev, V.D. Zhuravlev, E.Z.Drozdov, V.M. Deev and O. M. Parinov (53) 628.356 (088.8)

(56) Yakovlev S.V. and others. Sewerage .- | M .: Stroiizdat, 1976, p. 357.

, (54) INSTALLATION OF THE DPJ BIOLOGICAL TREATMENT OF WASTE WATER

(57) the invention allows to reduce

capital and operating costs for registration of circulation and treatment of excess activated sludge, increase the oxidative capacity of the aerotank by increasing the quality of circulation activated sludge. For this, the aeration tank 2 is connected by pipeline 1) with approx. 7 settler 3, regenerator 1 of active sludge is connected by pipeline 9 with approx 6 waste settler 3, and the pipeline of excess active sludge is connected to outlet 5 of settler 3. 2 ill.

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The invention relates to the treatment of domestic and industrial wastewater and can be used at aeration stations in the biological treatment of wastewater in aeration tanks.

The aim of the invention is to reduce the capital and operating costs of regenerating circulating and treating excess active sludge, increasing the oxidizing power of the aerotank by increasing the quality of circulating activated sludge.

Fig. 1 shows a plant for biological wastewater treatment; figure 2 is a secondary horizontal sump, longitudinal section.

The plant for biological wastewater treatment contains successively connected regenerator 1 of activated sludge, aerotank 2 and secondary horizontal settling tank 3 with the sludge scraper 4 and 5-7 located sequentially along its length. At the same time when mock

5 is equipped with a pipeline 8 removal of excess activated sludge, when mo

6- by pipeline 9 of recycled activated sludge, which informs him through pump 10 with a regenerator of activated sludge, and, for IC 7, by pipeline 11 to divert biologically active sludge, which informs him through pump 12 to an aerosol 2.

The device is also equipped with a pipeline I3 for supplying clarified waste water to the aeration tank 2 and a pipeline 14 for discharging purified waste water from the sump.

The installation works as follows.

The clarified waste water through conduit 13 enters aerotank 2. In it, out of sample 6 of settler 3, conduit 11 is pumped by pump 12 to young, biologically active IL | and from regenerator 1 of activated sludge, recirculated recycled activated sludge enters. In the aerotank 2 in the presence of dissolved oxygen, the required concentration of which is maintained by the aeration system of the structure, biological wastewater treatment processes take place. Here, all organic matter of the soil is absorbed by the claps of the activated sludge. Easily oxidizable substances as a result of metabolic processes.

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The owls flowing inside the sludge cells are used for the growth of new microflora with high biological activity. Part of the regenerated activated sludge from the activated sludge regenerator 1 is mineralized in the aeration tank 2. Moreover, the oldest sludge is mineralized, which has undergone several circulation cycles and over time loses

its activity, i

Thus, the activated sludge at the exit of their aerotank carries cotton of mineralized sludge, sludge with sorbed organic substances and sludge generated as a result of growth of microorganisms. At the same time, a young or aa account of its high activity can be immediately sent to the aeration tank 2 and used as a circulation one. Sludge with sorbed organic substances before feeding to the aeration tank 2 requires testing its activity in the regenerator t of activated sludge. Mineralized sludge cannot be used as recycled sludge due to low activity and non-regenerating regeneration. From the aero tank 2, the stream of sludge mixture enters the horizontal settling tank 3, where the sludge settles to the bottom, and the treated wastewater is removed through the pipeline 14.

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When sedimentation of sludge under the force of gravity to the bottom of the sump 3, its separation occurs. Mineralized sludge, as the most dense, having a significant amount of mineralized particles, accumulates at the beginning of the construction. Young sludge has small claps, a developed surface and therefore precipitates at the end of the settler 3, and sludge with sorbed organic matter, which has a density less than mineralized sludge, and more than young, settles in the middle part of the structure. The silt scraper 4, when periodically moving along the septic tank 3, to the flow of water in it, scoops up activated sludge settled to the bottom: in wet 7 - young sludge settled at the end of the septic tank 3, in wet 6 - il with sorbed organic vegetation, settled in the middle part of the structure, in case of IC 5 - mineralized sludge, seeding at the beginning of the sump 3. From the silo 5 sludge is removed through the pipeline 8 of the excess activated sludge disposal, for the extraction of 6 sludge by the pump 10 via the pipeline 9 of the recycled activated sludge pumped into the regenerator act silt, from the source of 7 sludge by the pump 12 through the pipe 11 of the disposal of biologically active sludge is pumped to the aeration tank 2.

Thus, the proposed plant for the biological treatment of wastewater makes it possible to rationally use activated sludge retained in the secondary horizontal settling tank: mineralized, easily stabilizable old sludge is sent as excess to stabilization; young sludge, which does not require regeneration, should be fed to the aerotank, and in the regenerator, only sludge with part of the oxidized organic substances sorbed by sludge sludge should be regenerated. This makes it possible to reduce the volume of facilities for processing and regeneration of sludge, and consequently, to reduce capital and operating costs. The flow of young, biologically active sludge into the aeration tank makes it possible to increase the oxidizing capacity of the structure and reduce its volume.

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Claims (1)

Claims of the Invention i A plant for biological sewage treatment containing sequentially connected activated sludge regenerator, aeration tank and a secondary horizontal settling tank with a filter for collecting activated sludge, a circulation activated sludge pipeline connecting the settling tank with an activated sludge regenerator, and a withdrawal pipeline activated sludge, characterized in that, in order to reduce the capital and operating costs of regenerating circulating and treating excess activated sludge, due to an increase in the quality of circulating active sludge, additional tools for collecting sludge are made at the bottom of the secondary settling tank along its length, while the pipeline of excess active sludge is connected to the first one in the direction of water flow; to the tank in the middle part of the settling tank and the installation is equipped with an additional pipeline for removal of biologically active sludge into the aeration tank connected to the latter Drift water. "